JPH04132664U - Head arm mechanism of hard disk drive - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a head arm mechanism that increases the degree of freedom in base design and holds the head arm in a standby position without adversely affecting the operation of the data area and voice coil motor. [Configuration] The flexible printed circuit board 8 is the magnetic head 7
The head arm 4 is urged in the direction B so that it is located in the landing zone 1a of the hard disk 1. A permanent magnet 21 is surrounded and supported by a holder 22 between the shaft 6 and the center of the hard disk 1, and is disposed on the base 15.
When the magnetic head 7 is located near the landing zone 1a and is not driven by the voice coil motor 5, the permanent magnet 21 attracts the attraction piece 20. As a result, the head arm 4 is held at the standby position.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to the head arm mechanism of a hard disk drive, and in particular uses permanent magnets to The head arm is attracted and the magnetic head is positioned in the landing zone of the hard disk. The present invention relates to a head arm mechanism for a hard disk drive that is held in place.

0002

[Conventional technology]

When a hard disk drive is not recording or playing, the magnetic head is The landing zone is located on the inner circumference of the surface of the hard disk. A head arm mechanism is known.

0003 FIG. 7 is a plan view of an example of a head arm mechanism of a conventional disk device. In Figure 7 1 is a hard disk, and the inner circumferential portion of hard disk 1 has a random disk. A working zone 1a is provided.

0004 A spindle motor 3 is installed on the aluminum die-cast base 2. A disk 1 is fixed to a spindle motor 3. Base 2 also has a head A door arm 4 is provided. The head arm 4 is connected to a voice coil motor 5 (motor ) to rotate in the direction of arrow A about the shaft 6 as the rotation center. header A magnetic head 7 is disposed at one end of the system 4, and the magnetic head 7 is connected to a hard disk. 1 data area 1b is accessed.

[0005] On the side of the head arm 4, there are coils 5a and magnets that constitute the voice coil motor 5. A flexible printed circuit board 8 (spring member) for wiring to the air head 7 is provided. It is. One end of the flexible printed circuit board 8 is connected to a board 9 disposed on the base 2. It is connected to the bent portion 9a of.

[0006] The flexible printed circuit board 8 has spring properties and can be bent freely as shown in the figure. , the side portion of the head arm 4 is urged in the direction of arrow B. Therefore, head arm 4 is not driven by the voice coil motor 5, the magnetic head 7 is flexible. Forced by the printed circuit board 8 in the direction of the landing zone 1a of the hard disk 1 be done.

[0007] There is also an iron suction piece 10 (a part of the head arm) on the side of the head arm 4. Fixed. Permanently located near the voice coil motor 5 and shaft 6 on the base 2. A permanent magnet 11 is supported and disposed by a holder 12. The permanent magnet 11 When the door arm 4 rotates and the magnetic head 7 reaches the vicinity of the landing zone 1a, The attraction piece 10 is attracted by magnetic force.

[0008] According to the above head arm mechanism, the head arm 4 connects to the voice coil motor 5. When the magnetic head 7 is not being driven further, the head arm 4 is urged in the direction of arrow B, and the magnetic head 7 is rotated. When it reaches the vicinity of the landing zone 1a, the attraction piece 10 is attracted by the magnetic force of the permanent magnet 11. The magnetic head 7 is moved to the standby position where the magnetic head 7 is located in the landing zone 1a. It is configured to hold the arm 4.

[0009]

[Problem that the idea aims to solve]

However, in the conventional head arm mechanism, the permanent magnet 11 and the holder 12 are attached to the base. installed near the voice coil motor 5 and shaft 6 on the bus 2 (the part where the disc is not installed). I'm being kicked. In addition to the voice coil motor 5, there is also a voice coil motor 5 in the part of the base 2 where the disc is not installed. Since the substrate 9 etc. are also provided, the installation location of the permanent magnet 11 and holder 12 is limited. This poses a problem that reduces the degree of freedom in device design and makes it difficult to miniaturize the device. It was.

0010 In order to increase the degree of freedom in design, the permanent magnet 11 is placed near the hard disk 1, for example. If installed, the magnetic field lines of the permanent magnet 11 may destroy data in the data area, There is a risk of deteriorating the S/N ratio.

The suction piece 10 is disposed near the shaft 6 on the side of the head arm 4, and the suction piece 10 extends from the shaft 6, which is the center of rotation of the head arm 4, to the position where the suction piece 10 is placed, which is the point of force. Since the distance (indicated by l ₁ in FIG. 7) is short, the magnetic force of the permanent magnet 11 must be increased in order to reliably attract the attraction piece 10 and hold the head arm 4 in a predetermined position. Therefore, when the magnetic force of the permanent magnet 11 is increased, the magnetic field may adversely affect the operation of the voice coil motor 5.

0012 In view of the above points, in this invention, a permanent magnet is attached to the disk mounting part to attach the base. In addition to increasing the degree of design freedom, voice coil motor operation and data area data can also be improved. Head adjustment for hard disk drives that makes it easy to downsize the device without adversely affecting the data. The purpose is to provide a system mechanism.

[0013]

[Means to solve the problem]

In order to solve the above problem, this proposal A head arm that has a magnetic head and is supported on a shaft, and a hard disk that connects the magnetic head. A motor that rotates the head arm to move it within the data area of the Move the head arm to position the head in the landing zone of the hard disk. Consists of a spring member that biases rotation toward the standby position, In the stop mode, the head arm is rotated to the standby position by a spring member. In the head arm mechanism of a hard disk drive, A permanent magnet that attracts the part of the head arm that has reached the standby position is attached to the hard disk. It is located on the lower side between the shaft and the center of the hard disk, and is made of magnetic material. holder so that it covers at least the surface of the permanent magnet that faces the hard disk surface. I got it.

[0014]

[Effect]

Place the permanent magnet on the underside of the hard disk, between the axis and the center of the hard disk. The configuration arranged between the The part of the head arm that is attracted by a permanent magnet acts to alleviate the constraints of This acts to increase the distance between the shaft and the shaft.

[0015] A structure in which a holder made of magnetic material covers the surface of a permanent magnet that faces the hard disk surface. This acts to prevent the magnetic lines of force of the permanent magnet from leaking to the hard disk surface side.

[0016]

【Example】

Fig. 1 is a plan view of an embodiment of the present invention, Fig. 2 is a bottom view of an embodiment of the invention, and Fig. 3 is a plan view of an embodiment of the invention. FIG. 2 is a sectional view of a portion indicated by III-III in FIG. 1. FIG. In Figure 2, for convenience of explanation, The shape of the bottom of the upper recess 16 is shown by a solid line, and the upper surface of the bottom is shown transparently. In each figure, figure Components that are the same as those in FIG.

As shown in FIGS. 1 and 2, a head arm 14 is disposed on a base 15 made of aluminum die-casting, with the shaft 6 as a pivot axis, and the head arm 14 is attached in the direction B by a flexible printed circuit board 8. Forced. An iron adsorption piece 20 (a part of the head arm) is screwed to a substantially intermediate portion between the shaft 6 of the head arm 14 and the magnetic head 7 with a screw 20a. The distance l ₂ between the suction piece 20 and the shaft 6 is larger than l ₁ in FIG.

[0018] At the bottom of the hard disk 1 of the base 15, a suction piece 20 is rotatable in the A direction. A recess 16 is arranged in an arc shape. The base 15 is located near the end of the recess 16. An iron holder 22 is screwed onto the top surface of the permanent magnet with a screw 22a. 21 is supported at the end of the recess 16.

[0019] Fig. 4 is an exploded perspective view of the main parts of an embodiment of the present invention, and Fig. 5 is an exploded perspective view of the main parts of an embodiment of the invention. FIG.

[0020] A cubic permanent magnet 21 is attached to a box-shaped magnet support rubber 23 as shown in Fig. 4. and is inserted and supported in the cavity 22a of the holder 22. The permanent magnet 21 The surface facing the adhesion piece 20 is magnetized as a north pole, and the surface opposite to the surface facing the attraction piece 20 is magnetized as a south pole. It is.

[0021] The upper surface of the permanent magnet 21 facing the hard disk 1 is made of iron and has a high magnetic permeability. The magnetic flux of the permanent magnet 21 leaks upward from the holder 22. There's nothing to do.

[0022] To explain this, Fig. 3 shows the distribution of magnetic lines of force of the permanent magnet 21 with broken lines. show. As shown in the figure, lines of magnetic force 30 upward from the permanent magnet 21 are connected to the holder 2 with high magnetic permeability. 2 and is distributed inside the holder 22, but is not distributed above the holder 22. .

[0023] Therefore, even if the permanent magnet 21 is placed near the hard disk 1, the hard disk There is no adverse effect on the data recorded and reproduced on the disk 1.

[0024] Returning to FIG. 5, the permanent magnet 21 is The magnetic head 7 is positioned near the landing zone 1a by being energized by the lint board 8. When placed, the suction piece 20 is suctioned. The permanent magnet 21 is made of magnet support rubber as shown in the figure. 23 to the end of the adsorption piece 20, and the magnetic head 7 is brought into contact with the landing zone 1. The head arm 4 is held at the standby position located at a.

[0025] In addition, the magnet support rubber 23 has a thin surface 23a that comes into contact with the suction piece 20, and The surface 23b facing the surface that contacts the piece 20 is thick. This allows the suction The impact caused by the contact of the piece 20 is absorbed by the elastic deformation of the surface 23b, and the surface 23a This further prevents destruction of the permanent magnet 21. Since the surface 23a is thin, The attraction force of the permanent magnet 21 is not weakened.

[0026] FIG. 6 is a plan view of a suction piece applied to an embodiment of the present invention.

[0027] The end 20b of the suction piece 20 that contacts the surface 23a has a radius of 4.95 mm as shown in FIG. It has a circular arc shape of mm, and has a hole 20c for screwing. Therefore, the analogy For example, even if the assembly precision of the magnet holder 22 and suction piece 20 varies, the suction The piece 20 and the surface 23a abut approximately at a point, and the area of the abutting portion does not change. Therefore, The permanent magnet 21 attracts the attraction piece 20 with a constant attraction force, and the head arm 4 is in the standby position. is reliably maintained.

[0028] As described above, according to this embodiment, the permanent magnet 21 is attached to the mounting portion of the hard disk 1. The operation of the voice coil motor 5 is There is no negative impact on This also makes it easier to downsize.

Furthermore, since the distance l ₂ between the attraction piece 20 and the shaft 6 is larger than l ₁ , the head arm can be held in the standby position even with a permanent magnet having a small magnetic force.

[0030] Moreover, the permanent magnet 21 is surrounded by an iron holder 22, which reduces magnetic flux leakage. In particular, the surface of the permanent magnet 21 facing the hard disk 1 is held by the holder 22. Since it is covered, it may have a negative effect on the data recorded and played back on hard disk 1. There is no.

[0031]

[Effect of the idea]

As mentioned above, according to the present invention, magnetic flux can be permanently maintained without leaking to the hard disk surface. Increase flexibility in base design by placing a magnet between the shaft and the center of the disk Since the distance between the permanent magnet and the shaft is increased, even permanent magnets with small magnetic force can be easily used. The head arm can be held in the standby position, which adversely affects the operation of the voice coil motor. This can be done so that it does not have any adverse effects. In addition, the magnetic flux of the permanent magnet is It has the feature of ensuring that data in the data area will not be adversely affected by leakage. Ru.

[Brief explanation of drawings]

FIG. 1 is a plan view of an embodiment of the present invention.

FIG. 2 is a bottom view of an embodiment of the present invention.

FIG. 3 is a sectional view of a portion indicated by III-III in FIG. 1;

FIG. 4 is an exploded perspective view of essential parts of an embodiment of the present invention.

FIG. 5 is a perspective view of essential parts of an embodiment of the present invention.

FIG. 6 is a plan view of a suction piece applied to an embodiment of the present invention.

FIG. 7 is a plan view of an example of a head arm mechanism of a conventional hard disk device.

[Explanation of symbols]

1 Hard disk 1a Landing zone 1b Data area 2,15 base 4,14 Head arm 5 Voice coil motor (motor) 6 axes 7 Magnetic head 8 Flexible printed circuit board (spring member) 10, 20 Adsorption piece (part of head arm) 11,21 Permanent magnet 22 Holder 23 Magnet support rubber

Claims (1)

[Scope of utility model registration request] 1. A head arm having a magnetic head supported on a shaft; a motor for rotating the head arm to move the magnetic head within a data area of a hard disk; The hard disk drive comprises a spring member that rotates and urges the head arm toward the standby position so as to be positioned in the landing zone, and when in a stop mode, the head arm is rotated to the standby position by the spring member. In the head arm mechanism, a permanent magnet that attracts a part of the head arm that has reached the standby position is disposed below the hard disk between the shaft and the center of the hard disk, and A head arm mechanism for a hard disk drive, wherein a holder made of a magnetic material is provided to cover at least a surface of the permanent magnet that faces the hard disk surface.